Affiliation:
1. Universidad Complutense Madrid 1 , 28040 Madrid, Spain
2. Área de Electromagnetismo & GISC, Universidad Rey Juan Carlos 2 , 28933 Móstoles, Spain
Abstract
The fluctuating hydrodynamics by Brey et al. [Phys. Rev. E 83, 041303 (2011)] is analytically solved to get the long-time limit of the fluctuations of the number density, velocity field, and energy density around the homogeneous cooling state of a granular gas, under physical conditions where it keeps stable. Explicit expressions are given for the nonwhite contributions in the elastic limit. For small dissipation, the latter is shown to be much smaller than the inelastic contributions, in general. The fluctuation-induced Casimir-like forces on the walls of the system are calculated assuming a fluctuating pressure tensor resulting from perturbing its Navier–Stokes expression. This way, the Casimir-like forces emerge as the correlation between the longitudinal velocity and the energy density. Interestingly, the fluctuation-induced forces push/pull the system toward the square or rectangular geometry where they vanish, in good agreement with the event-driven numerical simulations.
Funder
Comunidad de Madrid
Ministerio de Ciencia e Innovación
Reference69 articles.
1. On the attraction between two perfectly conducting plates;Proc. K. Ned. Akad. Wet.,1948
2. The influence of retardation on the London-van der Waals forces;Phys. Rev.,1948
3. The theory of molecular attractive forces between solids;Sov. Phys. JETP,1956
4. Trace formulas for nonequilibrium Casimir interactions, heat radiation, and heat transfer for arbitrary objects;Phys. Rev. B,2012
5. Casimir forces between arbitrary compact objects;Phys. Rev. Lett.,2007